Intelligent switch control device

By using a detachable snap-fit ​​connection structure and transmission component design, the problems of cumbersome battery replacement and panel damage in existing intelligent switch control devices are solved, achieving convenient replacement and wide applicability.

CN224400245UActive Publication Date: 2026-06-23WOCAO TECH (SHENZHEN) CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
WOCAO TECH (SHENZHEN) CO LTD
Filing Date
2025-06-05
Publication Date
2026-06-23

AI Technical Summary

Technical Problem

Replacing the battery in existing smart switch control devices is cumbersome and can easily damage the switch panel.

Method used

It adopts a detachable snap-fit ​​connection structure and transmission component design, including a snap-fit ​​structure, a snap-slot structure and a transmission component (rocker, rocker arm or combination), to achieve a detachable connection between the control unit and the power supply unit, simplifying the battery replacement process and adapting to different types of switch panels.

Benefits of technology

It improves the ease of battery replacement, reduces the risk of damage to the switch panel, and enhances applicability.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses an intelligent switch control device, it includes control main part and with control main part electric connection's power main part, be equipped with the buckle connection structure and electric connection structure between control main part with power main part, control main part is equipped with drive motor, drive motor is equipped with transmission assembly, transmission assembly is used for under drive motor control opens or close switch panel's switch spare. The utility model discloses by setting up the buckle connection structure that comprises buckle structure and buckle groove structure realizes the detachable connection of control main part with power main part, only needs to take down the power main part from switch panel without setting back adhesive, does not need to make the whole separation switch panel of intelligent switch control device, saves the cleaning step and time of dismounting, improves the convenience of replacing electricity, and reduces the emergence of the situation of damaging switch panel.
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Description

Technical Field

[0001] This utility model relates to the technical field of switchgear, and specifically to an intelligent switch control device. Background Technology

[0002] Switches are ubiquitous in daily life. The most common type of switch in homes is the push-button switch, which is usually located on the wall. To operate it, a person needs to press the button, requiring them to walk to the switch, which is inconvenient. To address this issue, patent application CN202023197366.2 discloses a remote control switch, including a switch and a remote control. The switch includes a housing, a motor, and a rotating rod. A through-hole is provided on the side wall of the housing. The motor is located inside the housing, and its output shaft extends out through the through-hole to the outside of the housing, allowing rotation within the through-hole. The rotating rod is located on the outside of the housing and fixedly connected to the output shaft, enabling the output shaft to drive the rotating rod. The remote control includes a signal transmitting module, and correspondingly, a signal receiving module and a motor drive module are located inside the housing. After receiving a signal from the signal transmitting module, the motor drive module can drive the motor to operate. This remote control switch can achieve the effect of remote control without people having to walk to the switch to operate the buttons by touch. It is more convenient and faster, and the buttons do not need to be touched by people repeatedly, which ensures hygiene and reduces the transmission routes of viruses and diseases.

[0003] However, the aforementioned remote control switches have the following problems: Existing remote control switches are fixed to the panel of mechanical switches with adhesive. However, the main drive motor is powered by a battery located inside the housing. The battery is easily depleted over time. When most of the battery power is consumed, the remaining power is insufficient to power the drive motor of the intelligent switch control device. The entire remote control switch needs to be removed to replace the battery or recharge it. The battery replacement efficiency is slow, and forcibly removing the remote control switch for charging can easily damage the switch panel. Furthermore, the adhesive on the switch panel needs to be cleaned and replaced with new adhesive before reinstallation. The installation process is cumbersome and time-consuming. Utility Model Content

[0004] This utility model addresses the shortcomings of current technology by providing an intelligent switch control device, aiming to solve the technical problems of cumbersome and time-consuming battery swapping procedures and easy damage to the switch panel in existing intelligent switch control devices.

[0005] The technical solution adopted by this utility model to achieve the above objectives is as follows:

[0006] A smart switch control device includes a control body and a power supply body electrically connected to the control body. The control body and the power supply body are provided with a detachable fastening connection structure and an electrical connection structure. The control body is provided with a drive motor, the power supply body is provided with a power supply component, and the drive motor is connected to a transmission component. The transmission component is used to open or close the switch components of the switch panel under the control of the drive motor.

[0007] As a further improvement, the control body includes a first housing, and the drive motor is disposed inside the first housing; the power supply body includes a second housing, and the power supply component is disposed inside the second housing; the fastening connection structure includes a snap-fit ​​structure and a snap-fit ​​groove structure, one of which is disposed on the first housing and the other on the second housing, and the snap-fit ​​structure and the snap-fit ​​groove structure are detachably connected.

[0008] As a further improvement, the buckle structure includes two buckles, which are respectively disposed opposite to each other on the first housing;

[0009] The second housing is provided with two corresponding grooves, and the buckle structure includes two hooks, which are respectively disposed in the grooves and are detachably fastened to the grooves.

[0010] As a further improvement, each groove is provided with a rotating shaft, and each hook is provided with a support and an operating part. The hook is mounted on the rotating shaft through the support and forms a rotatable connection. Pressing the operating part causes the hook to rotate around the rotating shaft and separate from the groove.

[0011] As a further improvement, the rotating shaft is provided with an elastic element, and the elastic element is provided with two connecting parts, which respectively abut against the wall surface of the hook and the wall surface of the groove.

[0012] As a further improvement, the first housing is provided with a fixed cavity and an opening communicating with the fixed cavity. The drive motor is disposed in the fixed cavity, and the opening penetrates through the side wall of the first housing. The drive motor is provided with a drive end, which extends through the opening to the outside and is connected to the transmission assembly. The transmission assembly may be one of a rocker arm, a rocker stick, or a combination thereof.

[0013] As a further improvement, the transmission component is a rocker arm; the rocker arm includes a sleeve rod, which is sleeved and fixed on the drive end; preferably, the sleeve rod has two protrusions, which are disposed on both sides of the sleeve rod and are spaced apart along the extension direction of the sleeve rod; the switch is a first button, and the protrusions are used to abut against the first button.

[0014] As a further improvement, the transmission component is a rocker arm, one end of which is fixedly connected to the drive end, the switch is a second button, and the other end of the rocker arm is used to abut against the second button.

[0015] As a further improvement, the transmission component is an assembly, which includes a first rocker arm and a mounting component. One end of the first rocker arm is fixedly connected to the drive end. The first rocker arm is provided with a sliding groove. The mounting component is provided with a slider. The slider is disposed in the sliding groove and can move along the direction of the sliding groove. The switch is a lever. The mounting component is provided with a socket for inserting the lever.

[0016] As a further improvement, the electrical connection structure includes a first electrical connector and a second electrical connector, the drive motor is also electrically connected to a first circuit board, the power supply assembly includes a second circuit board and a battery, the first electrical connector is electrically connected to the first circuit board, and the second electrical connector is electrically connected to the second circuit board.

[0017] Compared with the prior art, the above-mentioned one or more technical solutions in the intelligent switch control device provided by the present invention have at least one of the following technical effects:

[0018] This invention achieves a detachable connection between the control unit and the power supply unit by setting a snap-fit ​​connection structure consisting of a snap-fit ​​structure and a snap-slot structure. Only the power supply unit without adhesive backing needs to be removed from the switch panel, without having to completely detach the intelligent switch control device from the switch panel, saving disassembly and cleaning steps and time, improving the convenience of battery replacement, and reducing the possibility of damaging the switch panel. By setting a transmission component consisting of a rocker arm, rocker stick, or combination, the intelligent switch control device can be used with different types of switch panels, improving its applicability. Attached Figure Description

[0019] To more clearly illustrate the technical solutions in the embodiments of this utility model, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0020] Figure 1 This is a schematic diagram of the overall structure of the intelligent switch control device with a rocker arm as the transmission component in this embodiment;

[0021] Figure 2 This is an exploded view of the control unit and the power supply unit in this embodiment;

[0022] Figure 3This is another schematic diagram showing the disassembled control unit and power supply unit of this embodiment;

[0023] Figure 4 This is a schematic diagram of the overall structure of the intelligent switch control device with a rocker arm as the transmission component in this embodiment;

[0024] Figure 5 This is a schematic diagram of the overall structure of the intelligent switch control device with the transmission component as an assembly in this embodiment;

[0025] Figure 6 This is an exploded view of the assembly in this embodiment. Detailed Implementation

[0026] The following description is only a preferred embodiment of the present invention and does not limit the scope of protection of the present invention.

[0027] For examples, see the appendix. Figures 1-3 A smart switch control device 1 includes a control body 2 and a power supply body 3 electrically connected to the control body 2. The control body 2 and the power supply body 3 are provided with a detachable fastening connection structure 4 and an electrical connection structure 5. The fastening connection structure 4 is used for the power supply body 3 to be quickly removed from or installed on the control body 2. The control body 2 is provided with a drive motor 20, and the power supply body 3 is provided with a power supply component. The drive motor 20 is connected to a transmission component 200. The transmission component 200 is used to open or close the switch components of the switch panel under the control of the drive motor 20.

[0028] The control body 2 includes a first housing 21, which is also provided with adhesive for attaching to the switch panel. The drive motor 20 is located inside the first housing 21. The power supply body 3 includes a second housing 30, and the power supply assembly is located inside the second housing 30. The fastening connection structure 4 includes a snap-fit ​​structure 40 and a snap-fit ​​groove structure 41. One of the snap-fit ​​structure 40 and the snap-fit ​​groove structure 41 is located on the first housing 21, and the other is located on the second housing 30. The snap-fit ​​structure 40 and the snap-fit ​​groove structure 41 are detachably connected. The snap-fit ​​groove structure 41 includes two snap-fit ​​grooves 410, which are respectively disposed opposite to each other on the two outer walls of the first housing 21. The second housing 30 is provided with two corresponding grooves 300. The snap-fit ​​structure 40 includes two hooks 400, which are respectively disposed in the grooves 300. The hooks 400 are detachably fastened to the grooves 410. The snap-fit ​​connection structure 4 enables the detachable connection between the control body 2 and the power supply body 3, allowing the power supply body 3 to be removed from the switch panel separately without having to completely detach the intelligent switch control device 1 from the switch panel. This improves the convenience of battery swapping and reduces the possibility of damaging the switch panel.

[0029] Each groove 300 is provided with a rotating shaft 300a, and each hook 400 is provided with a support 400a and an operating part 400b. The hook 400 is mounted on the rotating shaft 300a via the support 400a and forms a rotatable connection. Pressing the operating part 400b causes the hook 400 to rotate around the rotating shaft 300a and separate from the buckle groove 410. The rotating shaft 300a is provided with an elastic element 300b, which is preferably a torsion spring. The elastic element 300b has two connecting parts, which are respectively connected to the wall surface of the hook 400 and the groove 300a. The wall surface of the 00 abuts against the elastic element 300b, which provides elastic force to ensure that the hook 400 is in the fastened state and to ensure the stability of the subsequent fastening. The operating part 400b facilitates the user to press and open the hook 400, which facilitates the disassembly of the power supply body 3. Preferably, each groove 300 is also provided with a positioning protrusion 300c. The positioning protrusion 300c is provided with a first arc surface, and the buckle groove 410 is provided with a second arc surface 410c that cooperates with the first arc surface. The first arc surface and the second arc surface are used for positioning when connected.

[0030] The first housing 21 has a fixed cavity 210 and an opening 211 communicating with the fixed cavity 210. The drive motor 20 is disposed in the fixed cavity 210, and the opening 211 penetrates the side wall of the first housing 21. The drive motor 20 has a drive end, which extends through the opening 211 to the outside and is connected to the transmission assembly 200. The transmission assembly 200 is disposed on the drive end. The transmission assembly 200 can be one of a rocker arm 200a, a rocker arm 200b, or a combination 200c. The transmission assembly 200 is used to contact the switch of the switch panel to realize opening and closing control.

[0031] The transmission component is a rocker arm 200a, which includes a sleeve rod that is sleeved and fixed on the drive end. Preferably, the sleeve rod has two protrusions on both sides of the sleeve rod, and the two protrusions are spaced apart along the extension direction of the sleeve rod. When the switch panel is a switch panel with a first button, and the switch element is the first button, the protrusion is used to abut against the first button. The drive motor 20 drives the rocker arm 200a to rotate. With the rotation direction of the drive motor 20, the protrusion abuts against the first button to control the opening and closing of the switch panel.

[0032] Another embodiment is shown in the appendix. Figures 2-4The transmission component 200 is a rocker arm 200b, one end of which is fixedly connected to the drive end. When the switch panel is a switch panel with a second button and the switch element is a second button, both ends of the rocker arm have rounded surfaces. When the drive motor 20 drives the rocker arm 200b to move, the rotation directions of the drive motor 20 are different. The other end of the rocker arm 200b is used to abut against the second button, thereby controlling the second button on the switch panel to control the opening and closing of the switch panel. The second button can be a button of different or the same type.

[0033] Another embodiment is shown in the appendix. Figures 2-3 and appendix Figures 5-6 The transmission component 200 is an assembly 200c, which includes a first rocker arm 200d and a mounting component 200e. One end of the first rocker arm 200d is fixedly connected to the drive end. The first rocker arm 200d is provided with a sliding groove 200f. The mounting component 200e is provided with a slider 200g, which is disposed in the sliding groove 200f and can move along the direction of the sliding groove 200f. When the switch panel is a switch panel with a lever, the switch element is a lever, and the mounting component 200e is provided with a socket 200h, the socket 200h is used for inserting the lever and for fixing the lever. When the drive motor 20 rotates, it drives the slider 200g of the mounting component 200e to slide along the direction of the sliding groove 200d. The mounting component 200e drives the lever to move in different directions, thereby controlling the lever on the switch panel to control the opening and closing of the switch panel.

[0034] The electrical connection structure 5 includes a first electrical connector 50 and a second electrical connector 51. Both the first electrical connector 50 and the second electrical connector 51 can be pin sockets or slot sockets. The drive motor 20 is also electrically connected to a first circuit board 22. The first circuit board 22 is provided with a control chip and a wireless module. The first circuit board 22 is used to drive the rotation of the drive motor 20. The power supply component includes a second circuit board 31 and a battery 32. The second circuit board 31 is used to ensure stable power supply, stable charging, and safety detection. The first electrical connector 50 is electrically connected to the first circuit board 22, and the second electrical connector 51 is electrically connected to the second circuit board 31.

[0035] The second circuit board 31 is provided with a charging module, and the second housing 30 is provided with a charging port 301. The charging port 301 and the battery 32 are both electrically connected to the second circuit board 31. The first housing 21 is provided with a switch button 212, and the switch button 212 is electrically connected to the first circuit board 22.

[0036] This invention achieves a detachable connection between the control unit and the power supply unit by setting a snap-fit ​​connection structure consisting of a snap-fit ​​structure and a snap-slot structure. Only the power supply unit without adhesive backing needs to be removed from the switch panel, without having to completely detach the intelligent switch control device from the switch panel, saving disassembly and cleaning steps and time, improving the convenience of battery replacement, and reducing the possibility of damaging the switch panel. By setting a transmission component consisting of a rocker arm, rocker stick, or combination, the intelligent switch control device can be used with different types of switch panels, improving its applicability.

[0037] This utility model is not limited to the above-described embodiments. Other intelligent switch control devices obtained by using the same or similar structures or devices as the above-described embodiments of this utility model are all within the protection scope of this utility model.

Claims

1. An intelligent switch control device, characterized in that: The intelligent switch control device includes a control body and a power supply body electrically connected to the control body. The control body and the power supply body are provided with a detachable fastening connection structure and an electrical connection structure. The control body is provided with a drive motor, the power supply body is provided with a power supply component, and the drive motor is connected to a transmission component. The transmission component is used to open or close the switch components of the switch panel under the control of the drive motor.

2. The intelligent switch control device according to claim 1, characterized in that: The control body includes a first housing, and the drive motor is disposed inside the first housing; the power supply body includes a second housing, and the power supply component is disposed inside the second housing; the fastening connection structure includes a snap-fit ​​structure and a snap-fit ​​groove structure, one of which is disposed on the first housing and the other on the second housing, and the snap-fit ​​structure and the snap-fit ​​groove structure are detachably connected.

3. The intelligent switch control device according to claim 2, characterized in that: The buckle structure includes two buckles, which are respectively disposed opposite to each other on the first housing. The second housing is provided with two corresponding grooves, and the buckle structure includes two hooks, which are respectively disposed in the grooves and are detachably fastened to the grooves.

4. The intelligent switch control device according to claim 3, characterized in that: Each groove is provided with a rotating shaft, and each hook is provided with a support and an operating part. The hook is mounted on the rotating shaft through the support and forms a rotatable connection. Pressing the operating part causes the hook to rotate around the rotating shaft and separate from the groove.

5. The intelligent switch control device according to claim 4, characterized in that: The rotating shaft is provided with an elastic element, and the elastic element is provided with two connecting parts, which respectively abut against the wall surface of the hook and the wall surface of the groove.

6. The intelligent switch control device according to claim 5, characterized in that: The first housing has a fixed cavity and an opening communicating with the fixed cavity. The drive motor is disposed in the fixed cavity, and the opening penetrates through the side wall of the first housing. The drive motor has a drive end, which extends through the opening to the outside and is connected to the transmission assembly. The transmission assembly can be a rocker arm, a rocker stick, or a combination thereof.

7. The intelligent switch control device according to claim 6, characterized in that: The transmission component is a rocker arm; the rocker arm includes a sleeve rod, which is sleeved and fixed on the drive end; the sleeve rod has two protrusions, which are disposed on both sides of the sleeve rod and are spaced apart along the extension direction of the sleeve rod; the switch is a first button, and the protrusions are used to abut against the first button.

8. The intelligent switch control device according to claim 7, characterized in that: The transmission component is a rocker arm, one end of which is fixedly connected to the drive end. The switch is a second button, and the other end of the rocker arm is used to abut against the second button.

9. The intelligent switch control device according to claim 8, characterized in that: The transmission component is an assembly, which includes a first rocker arm and a mounting component. One end of the first rocker arm is fixedly connected to the drive end. The first rocker arm is provided with a sliding groove. The mounting component is provided with a slider. The slider is disposed in the sliding groove and can move along the direction of the sliding groove. The switch is a lever. The mounting component is provided with a socket for inserting the lever.

10. The intelligent switch control device according to any one of claims 1-9, characterized in that: The electrical connection structure includes a first electrical connector and a second electrical connector. The drive motor is also electrically connected to a first circuit board. The power supply assembly includes a second circuit board and a battery. The first electrical connector is electrically connected to the first circuit board, and the second electrical connector is electrically connected to the second circuit board.